Data from: The interaction of fatigue cracks with a residual stress field using thermoelastic stress analysis and synchrotron x-ray diffraction experiments

Amjad, Khurram, Asquith, David, Patterson, Eann A., Sebastian, Christopher M. and Wang, Wei-Chung (2017) Data from: The interaction of fatigue cracks with a residual stress field using thermoelastic stress analysis and synchrotron x-ray diffraction experiments. [Data Collection]

Description

This article presents an experimental study on the fatigue behaviour of cracks emanating from cold-expanded holes utilising thermoelastic stress analysis (TSA) and synchrotron x-ray diffraction (SXRD) techniques with the aim of resolving the long-standing ambiguity in the literature regarding potential relaxation, or modification, of beneficial compressive residual stresses as a result of fatigue crack propagation. The crack growth rates are found to be substantially lower as the crack tip moved through the residual stress zone induced by cold expansion. The TSA results demonstrated that the crack tip plastic zones were reduced in size by the presence of the residual compressive stresses induced by cold expansion. The crack tip plastic zones were found to be insignificant in size in comparison to the residual stress zone resulting from cold expansion, which implied that they were unlikely to have had a notable impact on the surrounding residual stresses induced by cold expansion. The residual stress distributions measured along the direction of crack growth, using SXRD, showed no signs of any significant stress relaxation or redistribution, which validates the conclusions drawn from the TSA data. Fractographic analysis qualitatively confirmed the influence on crack initiation of the residual stresses induced by the cold expansion. It was found that the application of single compressive overload caused a relaxation, or reduction in the residual stresses, which has wider implications for improving the fatigue life.

Keywords:	Dryad,Cold expansion,Fastener holes,Synchrotron x-ray diffraction,Residual stresses,Thermoelastic stress analysis,Fatigue cracks,
Depositing User:	Data Catalogue Admin
Date Deposited:	23 Nov 2022 15:28
Last Modified:	23 Nov 2022 15:28
DOI:	10.5061/dryad.51256
Original Record Link:	https://datadryad.org/stash/share/qJWCjvjrCf56GzaJvIAPiUJjB-E9VztaEnccG6Ur9tc
URI:	https://datacat.liverpool.ac.uk/id/eprint/1895
Additional details Additional details Creators: Amjad, Khurram Asquith, David Patterson, Eann A. Sebastian, Christopher M. Wang, Wei-Chung Date: 12 October 2017 Resource language: English Publisher: University of Liverpool Contact email address: RDM@liverpool.ac.uk Last Modified: 23 Nov 2022 15:28

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